Systems and methods for establishing a pull payment relationship

ABSTRACT

Systems and methods for establishing a pull payment relationship are disclosed. A method includes: generating, by a computing system, a transaction code associated with a payee; receiving, by the computing system and from a user device associated with a payor, the transaction code associated with the payee and a transaction code associated with the payor, the transaction codes exchanged during a contact or a near-contact event; establishing, by the computing system, a payment relationship between the payee and the payor responsive to receiving the transaction codes from the user device associated with the payor; receiving, by the computing system, a payment request; determining, by the computing system, that the received transaction codes contained in the payment request match the transaction codes of the payee and the payor stored by the computing system; and processing, by the computing system, the received payment request.

CROSS-REFERENCE TO RELATED PATENT APPLICATIONS

This application is a continuation of U.S. patent application Ser. No. 17/963,115, filed Oct. 10, 2022, which is a continuation of U.S. patent application Ser. No. 15/284,040, now U.S. Pat. No. 11,468,414, filed Oct. 3, 2016, which are incorporated herein by reference in their entireties.

TECHNICAL FIELD

Embodiments of the present disclosure relate generally to the field of payments. More particularly, the systems, methods, and apparatuses relate to establishing a pull payment relationship between a payor and a payee.

BACKGROUND

There are many situations in which a person or an entity may want to request money from another person or entity, for example, when the person/entity is hired by the other person/entity to perform certain jobs such as a babysitting service, a cleaning service, a landscaping service, etc. Typically, the party performing the service or providing the goods asks the hiring party for payment upon completion of the service or providing of the goods. The party performing the service or providing the goods may accept only cash, while the hiring party may only or substantially only utilize payment cards. As a result, payments may be delayed and frustration may ensue. As such, a secure and convenient process is desired to facilitate fast and straightforward payments in these situations.

SUMMARY

A first exemplary embodiment relates to a method. The method includes registering, by a financial institution computing system, a payee for a pull payment service; registering, by the financial institution computing system, a payor for the pull payment service; receiving, by the financial institution, an indication of a contact or a near contact event occurring between a user device associated with the payee and a user device associated with the payor; establishing, by the financial institution computing system, a pull payment relationship between the payee and the payor responsive to receiving the indication; and fulfilling, by the financial institution computing system, a payment request from the payee based on the established pull payment relationship.

Another exemplary embodiment relates to a computing system associated with a financial institution. The computing system comprises a pull payment repository structured to store information relating to a pull payment service provided by the financial institution, and a processor communicably coupled to the pull payment repository. The processor is structured to register a payee for the pull payment service; register a payor for the pull payment service; receive an indication of a contact or a near contact event occurring between a user device associated with the payee and a user device associated with the payor; establish a pull payment relationship between the payee and the payor responsive to receiving the indication; and fulfill a payment request from the payee based on the established pull payment relationship.

A further exemplary embodiment relates to a non-transitory computer-readable media having computer-executable instructions embodied therein, when executed by a processor of a financial institution computing system, cause the financial institution computing system to perform a process. The process includes registering a payee for a pull payment service; registering a payor for the pull payment service; receiving an indication of a contact or a near contact event occurring between a user device associated with the payee and a user device associated with the payor; establishing a pull payment relationship between the payee and the payor responsive to receiving the indication; and fulfilling a payment request from the payee based on the established pull payment relationship.

Yet another exemplary embodiment relates to a method. The method comprises registering, by a first user device, for a pull payment service with a financial institution computing system; receiving, by the first user device, a first transaction code associated with the first user device from the financial institution computing system; receiving, by the first user device, a second transaction code associated with a second user device from the second user device; updating, by the first user device, the financial institution computing system with a pull payment relationship between the first transaction code and the second transaction code; and establishing, by the first user device, rules governing a payment between the first transaction code and the second transaction code.

These and other features, together with the organization and manner of operation thereof, will become apparent from the following detailed description when taken in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of a computing environment for establishing a pull payment relationship, according to an example embodiment.

FIG. 2 is a flow diagram of a method for establishing a pull payment relationship, according to an example embodiment.

FIG. 3 is a flow diagram of a method of making a payment with an established pull payment relationship, according to an example embodiment.

DETAILED DESCRIPTION

Before turning to the figures which illustrate example embodiments, it should be understood that the application is not limited to the details or methodology set forth in the following description or illustrated in the figures. It should also be understood that the phraseology and terminology employed herein is for the purpose of description only and should not be regarded as limiting.

Referring to the Figures generally, various systems, methods, and apparatuses relate to establishing a pull payment relationship between a payor and a payee. As used herein, a “payor” refers to an individual or entity that makes payments; a “payee” refers to an individual or entity that receives the payments. According to the present disclosure and in one embodiment, the payee and the payor can be registered with a financial institution (e.g., a bank) for a pull payment service provided by the financial institution. However, in other embodiments, the payee and payor may be members of different financial institutions. In one implementation, a unique transaction code is created for the payee whereby the payee can associate one or more financial accounts with the unique transaction code for receiving the payments. Further, another unique transaction code may be created for the payor whereby the payor can associate one or more financial accounts with the unique transaction code for making the payments. As used herein, a transaction code refers to a code that identifies the payor or payee in the pull payment transaction service. In some embodiments, the code may include letters, numbers, symbols, or any combination thereof. In further embodiments, the code may be tokenized. As used herein, “tokenization” refers to creating tokens that identify the transaction codes (e.g., a proxy or other representation that may be used to replace a sensitive data value with a non-sensitive or less sensitive data value).

According to the present disclosure, a pull payment relationship can be established by a contact or near contact event occurring between a user device (e.g., a smartphone) associated with the payee and a user device associated with the payor. As used herein, “a contact or a near contact event” refers to an event of bringing user devices close enough to each other so that information can be communicated between the user devices. In this regard, the “contact or near contact even” may be characterized by a close or relatively close proximity between the two devices. Thus, in one embodiment, “contact or near contact events” refer to Bluetooth, near field communication (NFC), an infrared interface, and/or any other type of short-range communication method. However, in other embodiments, a relatively broader range communication protocol may be used, such as the Internet or a WI-FI network. In either configuration, in use, after the contact or near contact event, a pull payment relationship may be established between the payor and payee.

According to one embodiment, the payor can establish rules governing the payments, which specify the amount, limit, time/date, and/or frequency of the payments, whether an approval by the payor or a third party is required before making the payments, whether a clawback mechanism is desired for the payments, etc. The payor and payee are able to transfer funds once the relationship is established. In particular, the payee requests the financial institution to transfer funds from the payor and provides the financial institution with the transaction codes for both the payee and the payor, requested amount and/or time/date for the payment. The financial institution determines whether the requested payment conforms to the established rules. Non-conforming requests may be declined; conforming requests may be awarded (i.e., allowed to be processed such that money is exchanged). If the rules specify that an approval by the payor or the third party is required, the financial institution may pass or transmit the payment request to the payor or the third party for approval before awarding the request.

As an example, a person hires a contractor to perform a landscaping service, which is broken down into various stages (e.g., create flower beds, add bushes, add mulch, etc.). The contractor asks the hiring person for payment upon completion of each stage of the service. The hiring person and the contractor can both register with a bank for the pull payment service by opening a pull payment webpage or run a pull payment application provided by the bank using smartphones. Subsequently, the hiring person “taps” his/her smartphone to the contractor's smartphone so that a pull payment relationship is established (i.e., the contact or near contact event). Thereafter, payment can be made to the contractor upon the contractor's request input via the pull payment webpage or the pull payment application. Therefore and beneficially, the contractor need not wait for the hiring party to write a check or obtain cash to pay the contractor, the contractor and hiring party can be located remotely (i.e., in different geographic locations), and payments can be achieved relatively faster. Such a service may be advantageous in situations as described above that typically require planning on the part of the hiring party and/or contractor in order to enable the payment to occur (e.g., the contract may need to tell the hiring party to pay them today whereby the hiring party must stop at an ATM or other place to acquire the funds, which is inconvenient).

As used herein, the term “pull payment relationship” refers to the payee being able to pull a payment. For example, the payee may obtain or facilitate obtaining a payment for a good or service by initiating the payment transaction with the payor. More particularly, a pull payment refers to the payee taking or facilitating taking a payment with (or, in some instances, without) the consent of the payor, wherein the payment is initiated by the payee and a pull payment service refers to a service provided by the financial institution (or a third party in some embodiments) to facilitate pull payment transactions. In comparison, a “push payment relationship” refers to a payment relationship where the payor pushes the payment to the payee. For example, when a payor is at a convenient store, the payor may provide cash to an attendant to pay for a good; in this regard, the payor has pushed the payment to the payee/attendant of the convenient store.

Beneficially, the systems, methods, and apparatuses of the present disclosure provides a secure and convenient process to facilitate fast and straightforward payments in peer-to-peer transactions. These and other features and benefits of the present disclosure are described more fully herein below.

Referring now to FIG. 1 , a schematic diagram of a computing environment 100 (also referred to herein as a computing system) for establishing a pull payment relationship is shown according to an example embodiment. As shown, the computing environment 100 includes a financial institution computing system 110 associated with a financial institution 104, a payor 106 associated with a user device 120, a payee 108 associated with a user device 130, a third-party approver 107, and payment network 109; all of which are communicably coupled over a network 102. In operation, the financial institution 104 facilitates establishment of a payor 106 and a payee 108 pull payment relationship. Upon an establishment, the financial institution 104 can further facilitate, enable, or otherwise allow the payor 106 to make a payment and the payee 108 to receive the payment through the payment network 109. When third-party approval is required, the financial institution 104 may obtain the approval from the third-party approver 107.

As shown, the financial institution 104 operates a financial institution computing system 110 that hosts or includes a pull payment server 114 for providing pull payment services. The financial institution computing system 110 includes a processor 111, memory 112, and a network interface 113. Memory 112 stores various instructions that, when executed by the processor 111, control the operation of the financial institution computing system 110. The network interface 113 allows the financial institution computing system 110 to send and receive data to and from external devices and entities via the network 102. The financial institution 104 may provide pull payment services via the pull payment server 114 on the financial institution computing system 110 and pull payment clients on a user device 120 of the payor 106 and a user device 130 of the payee 108. The pull payment server 114 includes instructions executable by the processor 111 to implement at least some or all of the pull payment functions described herein. The pull payment server 114 includes a rules engine 115 structured to establish and manage rules governing the pull payment relationship between the payor 106 and the payee 108, and a payment processing circuit 116 structured to process funds transfers from the payor 106 to the payee 108. The funds transfers may include transactions in connection with an account(s) of account holders (e.g., the payor 106 and the payee 108), such as account credits and debits to checking and savings accounts, credits and debits to credit/debit card accounts, credits and debits to gift accounts, and so on.

As also shown, the financial institution computing system 110 includes various databases, for example, an account database 117 and a pull payment database 118. The account database 117 may hold, store, categorize, and otherwise serve as a repository of account information for the customers of the financial institution 104. The account information includes user authentication information (e.g., account numbers, username/password combinations, device authentication tokens, security question answers, etc.), various statements (e.g., credit/debit statements for the accounts), etc. The pull payment database 118 may hold, store, categorize, and otherwise serve as a repository of pull payment information for the pull payment service users, such as the payor 106 and payee 108. The pull payment information includes user authentication information (e.g., codes, password, device authentication tokens, etc.), rules governing the pull payment relationship, transaction history (e.g., statements for funds transfer from the payor 106 to the payee 108), etc. Whenever funds are transferred into an account of the payee 108 or out of an account of the payor 106, the payment processing circuit 116 communicates the debit or credit to the pull payment database 118 to reflect an appropriate debit or credit in the pull payment database 118.

The funds transfer between the payor 106 and the payee 108 may be an intrabank transfer (i.e., transfers in which the payor 106 and the payee 108 both have accounts at the same bank and the funds are transferred between the accounts within the same bank). In another embodiment, the funds transfer between the payor 106 and the payee 108 may be an interbank transfer (i.e., a transfer in which the payor 106 and the payee 108 have accounts at different banks and the funds are transferred between the accounts at different banks). In this regard, the payor 106 and payee 108 may have or not have financial accounts with the financial institution 104. All such variations are intended to fall within the scope of the present disclosure.

The payor 106 and the payee 108 may be individuals or business entities. The payor 106 and the payee 108 may utilize the user devices 120 and 130, respectively, to access the pull payment services provided by the financial institution 104, among other means. The user device 120 may be a smartphone, a portable media device, a personal digital assistant (PDA), a laptop computer, or a personal computer. The user device 120 includes a processor 121, memory 122, and a network interface 123. Memory 122 stores various instructions that, when executed by the processor 121, control the operation of the user device 120. The network interface 123 allows the user device 120 to send and receive data to and from external devices and entities via the network 102. The network interface 123 may be a wireless network interface that communicates with a wireless communication protocol (e.g., 802.11a/b/g/n, Bluetooth®, Zigbee®, CDMA, GSM, LTE, WiMax, etc.) or a wired communication protocol (e.g., Ethernet, USB, Thunderbolt®, etc.). In some embodiments, the network interface 123 may further include an infrared interface for transmitting and receiving signals with infrared light. In some embodiments, the network interface 123 may further include a near field communication (NFC) interface that communicates with an NFC protocol (e.g., ISO 18092, ISO 21521, etc.).

The user device 120 includes a display 124 and an input 125. In some arrangements, the display 124 and the input 125 are integrated in a touchscreen display. The pull payment client 126 includes instructions executable by the processor 121 to implement at least some or all of the pull payment functions described herein. The pull payment client 126 may be a web browser that is configured to receive and display web pages (e.g., web pages prompting the payor 106 to register for the pull payment service, web pages displaying funds transfer information, etc.) or an application executed by the user device 120. The pull payment client 126 is configured to communicate with pull payment server 114 on the financial institution computing system 110 via the network 102.

The user device 130 may include similar components as the user device 120, namely, a processor 131, memory 132, a network interface 133, a display 134, an input 135, and a pull payment client 136. In this regard, different reference numerals are utilized for clarity and to not indicate different structure or function of the aforementioned components. Accordingly, the aforementioned components in the user device 130 may have the same or similar structure and function as the same named or titled components in the user device 120.

In some arrangements, third-party approval is required before the pull payment is made. In this regard, third-party approval may serve as a check or other review mechanism prior to processing the payment to, in turn, prevent or substantially prevent any unwanted payments from occurring. There may be situations where the third-party approval is desired. For example, when a child pays for services/goods with funds in a parent's financial account, the parent might want to approve the payment. As another example, the payor 106 may engage a landscape contractor to work on a landscape project, and the payor 106 may wish to have a third-party inspector check how the work was performed before making the payment. The third-party approver 107 may be individuals or business entities. When the third-party approval is required, the financial institution 104 can reach out to the third-party approver 107 via the network 102 (e.g., e-mail, phone call, text message, voice message, etc.). In some arrangements, the third-party approver 107 can communicate with the financial institution computing system 110 through a user device (not illustrated in the present figure) like the user devices 120 and 130.

The financial institution 104 may settle the funds transfer using the payment network 109. In this regard, the payment network 109 is structured as the rail or channel for transferring the funds. Accordingly, the payment network 109 may include, but is not limited to, a real-time payment rail, a debit card rail, a wire rail, a mobile wallet payment rail, a credit card payment rail, and so on. The payment network 109 may include an organization (e.g., a financial institution) that guarantees or mostly guarantees the funds transfer between the payor 106 and the payee 108. The financial institution of the payment network 109 may be the same as or different than the financial institution 104 that provides the pull payment services. As used herein, an issuer refers to a financial institution (e.g., a bank) that creates and maintains financial accounts. In one embodiment, the financial institution 104, the issuer of the payor's financial account, and the issuer of the payee's financial account can be called “member banks” (or member financial institutions) of the payment network 109. That is, the member banks associated with the payment network 109 may follow established protocols for transferring funds using the payment network 109. To become “member banks,” the banks may be required to register with the payment network 109. The payment network 109 is structured to facilitate payments or funds transfers between the banks. The payment network 109 may be operated or owned by a third party entity or a joint venture from the member banks in the pursuit of providing easy interbank fund transfers. In some arrangements, the payment network 109 is embodied as a computing system or server. The payment network 109 may confer with the financial institution computing system 110 prior to confirming the payment. The confirmation may include, for example verifying that the payor's account associated with the pull payment is active and has enough remaining credit to proceed with the transaction. The payment confirmation either indicates that the payment source is accepted and that the transaction is approved or that the payment is denied.

The network 102 facilitates communication between the above-noted devices and entities. The network 102 may include private networks, public networks, or a combination thereof. In some arrangements, the network 102 includes the Internet. The network 102 may be any type of network. For example, the network 102 may be a wireless network interface (e.g., 802.11X, cellular network, satellite network, ZigBee, Bluetooth, Internet, etc.), a wired network interface (e.g., Ethernet, Fiber Optic, etc.), or any combination thereof.

Referring to FIG. 2 , a flow diagram of a method 200 of establishing a pull payment relationship is shown according to an example embodiment. In one embodiment, the method 200 can be performed by the financial institution computing system 110 (e.g., by the processor 111). Accordingly, reference may be made to FIG. 1 and the components thereof to aid explanation of method 200.

At process 202, the payee 108 is registered with the financial institution 104 for the pull payment services. The payee 108 may submit a registration request to the financial institution 104 in order to utilize the pull payment services to request and receive a payment. The registration request may include user identification information (e.g., a username, account number, date of birth, password information, etc.). The payee 108 may have or not have a financial account with the financial institution 104. If the payee 108 has a financial account with the financial institution 104, the financial institution computing system 110 can retrieve the payee's profile from the account database 117 based on the user identification information (assuming one exists). If a payee profile does not exist, the financial institution computing system 110 may prompt the payee to establish profile, which comprises the user information.

Multiple channels or methodologies are available to the payee 108 for registering for the pull payment services, such as on-site, online, by mail, by phone, etc. For example, the payee 108 can visit a branch office of the financial institution 104, provide user information/profile to a teller who enters the payee's request and information into the pull payment database 118 on the financial institution computing system 110. In some arrangements, the payee 108 fills a pull payment application form and sends the application to the financial institution 104 by mail; personnel of the financial institution 104 receive the payee's request; and, pull payment database 118 is updated with information provided in the application form. In some arrangements, the payee 108 can talk to call center personnel of the financial institution 104 and provide information needed to set up the pull payment service. In some arrangements, the payee 108 can register through the pull payment client 136 on the user device 130. In some arrangements, the pull payment client 136 is a web browser configured to receive and display web pages prompting the payor 106 to register for the pull payment service and input needed information. In some arrangements, the pull payment client 136 is an application executed by the user device 130. The pull payment client 136 may communicate with pull payment server 114 on the financial institution computing system 110 via the network 102. The pull payment database 118 stores the payee's information transferred by the pull payment client 136.

The financial institution computing system 110 may create a unique code (or token) for the payee 108 that identifies the payee 108 in pull payment transactions, which is called the “transaction code” for the payee. In some arrangements where the payee 108 registers via the user device 130, a device token can be generated, which is specific to the user device 130. The device token is used to register the user device 130 and to link the user device 130 with the payee 108. The device token can be used in lieu of or in addition to the transaction code in authentication and/or transactions through the financial institution computing system 110. In some arrangements, the payee 108 may also select a password that will allow the financial institution computing system 110 to ensure that only authorized users are requesting payments.

The payee 108 can define the method by which payments can be received by associating one or more financial accounts with the transaction code created for the payee 108. The one or more financial accounts may include a check account, a savings account, a credit card account, a debit card account, a pre-paid card account, a gift card account, or any other suitable financial account. The one or more financial accounts may be held by the financial institution 104 or held by a different financial institution relative to the financial institution 104. In some arrangements, the payee 108 may additionally or alternatively associate a digital wallet account with the pull payment services for receiving payments. The payment may be in the form of a deposit to the associated financial account. As used herein, a “deposit” can include an actual transfer of money to an account such as a debit card account, and/or may include a debit to an account such as a credit card account. In some arrangements where multiple financial accounts are associated with the transaction code, the payee 108 can specify under what situations should each account be used, and/or assign a priority value to each account. The priority value may establish a hierarchy of the accounts for receiving payments. The payee 108 may change the financial account(s) associated with the transaction code and/or the priority values of the accounts at any time. The payee 108 may provide the pull payment server 114 with information relating to the financial accounts, which may be stored in the pull payment database 118 and associated with the transaction code of the payee 108. The information may include, for example, account number, card number, expiration date, security code (credit) or PIN (debit), optional email address or phone number for confirmation/receipt.

In some arrangements, the payee 108 may desire a clawback mechanism. As used herein, the “clawback” refers to return of money already received. For example, the payee 108 is requesting funds from friends and relatives to sponsor a trip. If adequate funds are contributed by a designated date, the payee 108 will take the money and make the trip. Otherwise, the payee 108 may like to cancel the trip and return the contributed funds to the contributors. The clawback mechanism may be implemented by associating the payee's transaction code with a holding account at the financial institution 104. The funds contributed by the relatives and friends payors can be transferred first to a holding account. If adequate funds are contributed by the designated date, the funds will then be transferred to the payee's account. Otherwise, the funds will be transferred back to the relatives and friends payors' accounts. The financial institution 104 can maintain a holding account for all the temporarily transferred funds, therefore the payee 108 does not need to open an escrow account by itself.

The payee 108 can register as either a one-time user or a repeated user of the pull payment services. As used herein, a one-time user refers to the user who uses the pull payment service for one payment only whereas a repeated user refers to the user who uses the pull payment service repeatedly. The payee 108 can select from options provided when registering for the service. For example, the payee 108 can inform a bank teller of the selection, choose from options of “one-time user” and “repeated user” on the application form, or select from the options via the display 134 on the user device 130. In some arrangements where the payee 108 registers as a one-time user, the information provided for registration may be used for a single transaction. Once the transaction is complete and the funds have been received, the financial institution computing system 110 can remove all information regarding the transaction.

At process 204, the payor 106 is registered with the financial institution 104 for the pull payment service. In some arrangements, the payor's registration can be similar to the payee's registration. In particular, the payor 106 submits a registration request to the financial institution 104 and provides user identification information and optionally the payor's profile using any suitable means such as on-site, online, by mail, by phone, etc. The payor provides an email address and some basic information such as name and address to register online. The financial institution computing system 110 creates a unique code (or token) for the payor 106 that identifies the payor 106 in pull payment transactions, which is called the “transaction code” for the payor. In some arrangements where the payor 106 registers via the user device 120, a device token can be generated specific to the user device 120. The device token is used to register the user device 120 and to link the user device 120 with the payor 106. The payor 106 may also select a password that will allow the financial institution computing system 110 to ensure that only authorized users are making payments. The payor 106 can define the instrument(s) by which payments can be made by, associating one or more financial accounts with the transaction code created for the payor 106. The financial account(s) may be with or not with the financial institution 104. In some arrangements, the payor 106 may additionally or alternatively associate a digital or mobile wallet account with the pull payment services for making payments. The payment may be in the form of a credit to the associated financial account. In some arrangements where multiple financial accounts are associated with the transaction code, the payor 106 can specify under what situations each account should be used, and/or assign a priority to each account. The payor 106 may change the financial account(s) associated with the transaction code and/or the priorities of the accounts at any time. The payor 106 may provide the pull payment server 114 with information relating to the financial accounts, which will be stored in the pull payment database 118 and associated with the transaction code of the payor 106.

At process 206, the pull payment server 114 receives an indication of a contact or a near contract event occurring between the user device 120 associated with the payor 106 and the user device 130 associated with the payee 108. As mentioned above, a contact or a near contact event refers to an event of bringing user devices 120 and 130 close enough to each other so that information can be communicated between the user devices 120 and 130. When the payor 106 and the payee 108 both complete registration, transaction codes are generated for both and can be communicated to each other by, for example, “bumping” or “tapping” the user devices 120 and 130 associated with the payor 106 and payee 108, respectively. In this regard, the “bumping” or “tapping” refers to the contact or near contact event. The bumping or tapping may be a NFC tap or a Bluetooth tap, in one embodiment. In another embodiment, the user devices 120 and 130 each include an infrared interface for transmitting and receiving signals with infrared light. For example, the infrared interface may comply with an infrared IrDA protocol for data transmission. When brought close enough in the range available via the infrared interface, the user devices 120 and 130 can transmit the respective transaction codes to each other and/or receive the transaction code of the other via the infrared interface. The transaction code can be “tokenized” when being transmitted to the other party. Each token may be a string of characters (e.g., numbers, letters, symbols) such as email address, user identifier, device identifier, etc. that represents an encoded version of a transaction code. The tokenized transaction code can be retrieved from the token by decoding the token. The use of tokens instead of actual transaction code provides an added layer of data theft protection. Upon receiving the transaction code of the payee 108, the user device 120 of the payor 106 may notify the pull payment server 114 that a contact or a near contact event occurred between the user devices 120 and 130 of the payor 106 and the payee 108.

In one embodiment, the user devices 120 and 130 each include a near field communication (NFC) interface. The NFC interface may allow for close range communication at relatively low data rate and may comply with various NFC protocols (e.g., ISO 18092, ISO 21521, etc.). When brought close enough in the range available via the NFC interface, the user devices 120 and 130 can transmit the respective transaction codes to each other and/or receive the transaction code of the other via the NFC interface. The transaction code can be “tokenized” when being transmitted to the other party. Upon receiving the transaction code of the payee 108, the user device 120 of the payor 106 may notify the pull payment server 114 that a contact or a near contact event occurred between the user devices 120 and 130 of the payor 106 and the payee 108.

In another embodiment, the user devices 120 and 130 each include a Bluetooth network interface. The Bluetooth network interface may enable close range wireless connections within a bandwidth assigned for Bluetooth communications. When brought close enough in the range available via the Bluetooth network interface, the user devices 120 and 130 can transmit the respective transaction codes to each other and/or receive the transaction code of the other via the Bluetooth network interface. The transaction code can be “tokenized” when being transmitted to the other party. Upon receiving the transaction code of the payee 108, the user device 120 of the payor 106 may notify the pull payment server 114 that a contact or a near contact event is occurring between the user devices 120 and 130 of the payor 106 and the payee 108. In other arrangements, the user devices 120 and 130 may transmit the transaction code or token to each other through Wi-Fi network, ZigBee network, or any other type of network.

In still another embodiment, a transaction code or token may be associated with a matrix barcode. The user device 120 and/or 130 may display the matrix barcode on the display. The other user device may scan the matrix barcode and obtain the transaction code or token. In some arrangements, the payor 106 and the payee 108 can inform each other of the transaction codes through various processes such as exchanging emails, exchanging text messages, talking over the phone, etc. Upon receiving the transaction code of the payee 108, the user device 120 of the payor 106 may notify the pull payment server 114 that a contact or a near contact event is occurring between the user devices 120 and 130 of the payor 106 and the payee 108.

At process 208, the pull payment server 114 establishes a pull payment relationship between the payor 106 and the payee 108 responsive to receiving the indication of the contact or a near contact event. The pull payment relationship is identified by the payor's transaction code and the payee's transaction code. In some arrangements, the rules engine 115 may specify rules governing the pull payment relationship, e.g., rules governing the payments from the payor 106 to the payee 108. For example, the payor 106 can define the rules for the pull payment relationship between the payor 106 and the payee 108. As used herein, “rules” refer to a set of instructions that define conditions and/or boundaries regarding any payment made to the payee 108 by the payor 106. In some arrangements, the rules can specify the amount, limit, time/date, and/or frequency of any payment made to the payee 108 by the payor 106. Regarding the amount, the rules can provide the amount for each payment. For example, the amount of each payment might be the same for the same services (e.g., lawn care service) provided, which can be specified by the payor in the rules. Regarding the limit, the rules can provide the maximum amount for each payment, and/or the maximum amount paid in a period of time. For example, the rules may specify that a maximum of $1,000 can be paid to a nanny every month. Regarding the time/date, the rules can provide when a payment is to be made, and/or when the relationship is in effect. For example, the rules may specify that the payment is to be paid the last day of each month, and/or the relationship is in effect for six months, etc. Regarding the frequency, the rules can provide how often the payment is to be made. For example, the rules may specify the payment is to be made every week. The payor 106 can establish different combination of boundaries and conditions for pull payment relationship with different payees in terms of predefined payment amounts, predefined payment times/dates, predefined relationship durations, etc. For example, the payor can specify that a payment of $100 is made to a nanny at 5:00 PM every Friday for three consecutive months upon the nanny's requests. Or, the payor can specify that a maximum of $1,000 is paid to a landscape service contractor during two weeks upon the contractor's requests. It shall be understood that the rules can include any suitable boundaries/conditions regarding the payment relationship between the payor 106 and the payee 108. In further arrangements, the payor 106 and the payee 108 can agree on an interest rate for any late payment. The interest may be predefined by the rules engine and then implemented by the rules engine.

In some arrangements, the rules can specify whether an approval by the payor 106 or the third-party approver 107 is required before a payment is made. If the payor 106 waives the approval, a payment that conforms to the rules will be made to the payee 108 upon request without the payor's approval. If the approval is required, a payment that conforms to the rules will be made after the approval of the payor 106 or the third-party approver 107. In some arrangements, the rules can specify a combination of boundaries/conditions of the payment and the approval requirement. For example, the rules can provide that a payment of less than $25 (or another predefined threshold value) can be made without approval while an amount equal to or beyond $25 requires the approval. Or, the rules can provide that a total payment of less than $100 during a month can be made without approval, while the approval is required when the total payment in one month exceeds $100, and so on. It shall be understood that the rules can include any suitable combination of payment boundaries/conditions and the approval requirement.

In some arrangements, the payor 106 may desire a clawback mechanism in situations where the payor 106 would like to check whether the payee 108 did deliver the services/products and/or the quality of the services/products as claimed before making the payment. One example is where divorced parents share the child's spending. When a parent buys, for example, soccer cleats, for the child, he/she might want to pull half of the expense from the other parent's account. The other parent would like to see the receipts before paying. As another example, when the payor 106 engages a landscape contractor to work on a landscape project, the payor 106 may wish to check how the work is performed before paying (e.g., receive a photograph of progress to date). In the clawback mechanism, funds can be first transferred from the payor's account associated with the payor's transaction code to a holding account at the financial institution 104 upon the payee's request. If the request is eventually approved, the funds can then be transferred to the payee's account associated with the payee's transaction code. If the request is eventually declined, the funds can then be transferred back to the payor's account. The financial institution 104 can maintain a holding account for all the temporarily transferred funds, therefore the payor 106 does not need to open an escrow account by itself.

Regarding implementation of the clawback mechanism, either the payor 106 or the third-party approver 107 can approve the payment. In the example of divorced parents sharing the child's spending, the payor parent can approve the payment upon seeing a copy of the receipt. In the example of the landscape contractor, the payor 106 can approve the payment upon seeing a picture of the scene. Or, a third-party approver 107 (e.g., an inspector) can inspect the landscape service performed. If the payor 106 or the third-party approver 107 decides that the services/goods have been properly delivered and approves the payment, the funds can be transferred from the holding account to the payee's account. If the payor 106 or the third-party approver 107 decides that the services/goods have not been properly delivered, the funds or a portion of the funds can be transferred back from the holding account to the payor's account. For example, the contract between the payor and the landscaper (i.e., payee) may have stipulated that the landscaper use certain color mulch are certain areas of the payor's lawn. However, the image observed by the payor indicates a different color mulch and in different, non-stipulated areas. Nonetheless, the landscaper did still perform some work. Accordingly, the payor may release only a portion of the funds rather than the full agreed-upon amount.

At process 210, the payment processing circuit 116 of the pull payment server 114 fulfils a payment request from the payee 108 based on the established pull payment relationship. A specific process is discussed in detail below with reference to FIG. 3 .

Referring now to FIG. 3 , a flow diagram of a method 300 of making a payment with an established pull payment relationship is shown according to an example embodiment. The method 300 can be performed by the financial institution computing system 110 (e.g., by the processor 111).

At process 301, a pull payment relationship is established between the payor 106 and the payee 108 based on rules. Both the payor 106 and the payee 108 can register with the financial institution computing system 110, which generates the transaction codes for the payor 106 and the payee 108. As discussed above, the payor 106 and the payee 108 can inform each other of the transaction codes through various processes in a contact or a near contact event. In some arrangements, the transaction code can be “tokenized” when being transmitted to the other party. Each token may be a string of characters (e.g., numbers, letters, symbols) such as email address, user identifier, device identifier, etc. that represents an encoded version of a transaction code. In some arrangements, the pull payment relationship may be established by “bumping” two devices associated with the payor and payee, respectively. For example, the user device 120 associated with the payor may include an infrared interface, an NFC interface, a Bluetooth network interface, a Wi-Fi interface, or another network interface. In other arrangements, a transaction code or token may be associated with a matrix barcode. The user device 120 and/or 130 may display the matrix barcode on the display. The other user device may scan the matrix barcode and obtain the transaction code or token. The financial institution computing system 110 establishes the pull payment relationship between the payor and the payee responsive to receiving the indication of such contact or near contact event. Furthermore, the payor 106 can define the rules regulating the pull payment relationship between the payor 106 and the payee 108, as discussed above.

At process 302, a payment request for pulling funds is received from the payee 108. Upon, for example, completing services and/or delivering goods to the payor 106, the payee 108 may request the financial institution 104 to pull funds from the payor's account and push the funds to the payee's account based on the established pull payment relationship. The request may include the payee's transaction code or token, the payor's transaction code or token, a requested amount, and a date for payment. For example, a sample request may be the following: to transfer a certain amount of funds from the account associated with the payor's transaction code or token to the account associated with the payee's transaction code or token by a certain date. In some arrangements, the request may further include information describing why the payment is being requested, such as for items sold, or services rendered. Such record keeping may be beneficial in order to track, sort, and otherwise manage pull payment fund transfers for the payor. In some arrangements, the request may further include identification information (e.g., name, phone number, email address) of the payor and/or the payee for confirmation/receipt. In some arrangements where multiple accounts are associated with the payee's transaction code, the request may specify which financial account should receive the payment or use priorities of the accounts as default.

Multiple channels are available to the payee 108 for requesting the payment, such as on-site, online, by mail, by phone, etc. For example, the payee 108 can visit a branch office of the financial institution 104 and submit the payment request to a teller who gets the payee's request into the financial institution computing system 110. In some arrangements, the payee 108 can fill a pull payment request form and send it to the financial institution 104 by mail; personnel of the financial institution 104 can get the payee's request into the financial institution computing system 110 based on information provided in the request form. In some arrangements, the payee 108 can talk to a call center personnel of the financial institution 104 and provide information needed to request payment. In some arrangements, the payee 108 can register through the pull payment client 136 on the user device 130. In some arrangements, the payee 108 can send a text message to the call center of the financial institution 104 requesting payment, and the personnel will get the information into the financial institution computing system 110. In some arrangements where the pull payment client 136 is a web browser, the payee 108 can request the payment on a webpage operated by the financial institution computing system 110 through the user device 130. In some arrangements where the pull payment client 136 is an application executed by the user device 130, the payee 108 can request the payment by running the application. It shall be understood that the payee 108 can submit the payment request to the financial institution 104 through any suitable channels.

In some arrangements, the payee 108 is requested to authenticate itself to the financial institution 104. For example, the payee may be requested to enter a password or provide a social security number (SSN) as part of the authentication process.

At process 304, the rules engine 115 on the financial institution computing system 110 determines whether the payment request conforms to the established rules. As discussed above, the rules can specify the amount, limit, time/date, and/or frequency of any payment made to the payee 108 by the payor 106. In some arrangements, the rules engine 115 can check whether the amount and date specified in the request conform to the amount and time/date provided in the rules. In some arrangements, the rules engine 115 makes the determination based on not only the amount/date specified the request, but also historical transactions relating to the pull payment relationship stored in the pull payment database 118. For example, the rules may specify that only one payment can be made every week. The rules engine 115 will check whether there was a payment made within a week before the requested date. Another example, the rules specify that a maximum of $500 can be made to the payee 108 during any three-month period. The rules engine 115 may check how much has been paid during the period and whether the addition of the requested payment will exceed the limit. It shall be understood that the rules engine 115 can check the payment request according to any suitable boundaries/conditions established for the payment relationship between the payor 106 and the payee 108.

If the request is determined to not conform to the established rules at the process 304, the request is declined at process 306. The financial institution 104 can notify the payee 108 of the declination of payment through multiple channels, such as phone call, text message, voice message, email, etc. In some arrangements, the pull payment server 114 on the financial institution computing system 110 can send the declination notification to the pull payment client 136 on the user device 130 via the network 102. The user device 130 can display the notification on the display 134 for the payee 108 to view.

If the request is determined to conform to the established rules regarding conditions and boundaries at process 304, the rules engine 115 may further determine whether the request is approved at process 308. As discussed above, the rules can specify whether an approval by the payor 106 or the third-party approver 107 is required before the payment is made. If the approval is not required, the method 300 will proceed to process 310 to settle the payment, which is discussed in detail below. If approval is required, the rules engine 115 will determine whether the payor 106 or the third-party approver 107 approves the payment.

In some arrangements where approval by the payor 106 is required, the financial institution 104 may pass the payment request to the payor 106 through phone call, text message, voice message, email, etc. In some arrangements, the pull payment server 114 may send the request to the pull payment client 126 on the user device 120 through the network 102. The user device 120 can display the request on the display 124 for the payor 106 to review. The payor 106 is provided with options such as “Approve,” “Decline,” or optionally, “Hold off” For example, the options are provided via a user interface of the pull payment client 126 for the payor 106 to select. If the payor 106 selects the option “Approve” to indicate that the payment request is approved, the method 300 will proceed to process 310 to settle the payment, which will be discussed in detail below. In some arrangements where multiple accounts are associated with the payor's transaction code, the approval may specify which financial account should be used to make the payment or use priorities of the accounts as default. If the payor 106 selects the option “Decline” to indicate that the request is declined, the method 300 will proceed to process 306 to decline the request, as discussed above.

In some arrangements, the payor 106 is provided with the option “Hold off” to indicate that the request is being held off for approval. As discussed above, a clawback mechanism can be created for situations where the payor 106 would like to check whether the payee 108 did deliver the services/products and/or the quality of the services/products before making the payment. If the payor 106 selects the option “Hold off,” the financial institution computing system 110 can transfer the requested funds from the account associated with the payor's transaction code to the holding account operated by the financial institution 104. If the request is approved after the payor 106 inspects the products/services, the funds can then be transferred to the payee's account associated with the payee's transaction code. If the request is declined after the payor's inspection, the funds can then be transferred back to the payor's account. In some arrangements, the financial institution 104 may remind the payor 106 to decide on a payment being held off through multiple channels, such as phone call, voice message, text message, email, etc. For example, the pull payment server 114 can send the reminder of held-off to the pull payment client 126 for displaying on the display 124 for the payor 106 to view on a daily basis, a weekly basis, and so on.

In some arrangements where approval by the third-party approver 107 is required, the financial institution 104 may pass the payment request to the third-party approver 107 through a phone call, text message, voice message, email, etc. In some arrangements, the pull payment server 114 may send the request to a user device associated with the third-party approver 107 through the network 102. The third-party approver 107 is provided with options such as “Approve,” “Decline,” or optionally, “Hold off” to select. If the third-party approver 107 selects the option “Approve” to indicate that the payment request is approved, the method 300 will proceed to process 310 to settle the payment. If the third-party approver 107 selects the option “Decline” to indicate that the request is declined, the method 300 will proceed to process 306 to decline the request. In some arrangements, the financial institution 104 may pass the payment request to the third-party approver through multiple channels, such as phone call, voice message, text message, email, etc.

In some arrangements where a clawback mechanism is created as discussed above, the third-party approver 107 is provided with the option “Hold off” to indicate that the request is being held off for approval. If the third-party approver 107 selects the option “Hold off,” the financial institution computing system 110 can transfer requested funds from the account associated with the payor's transaction code to the holding account operated by the financial institution 104. If the request is eventually approved by the third-party approver 107, the funds can then be transferred to the payee's account associated with the payee's transaction code. If the request is eventually declined by the third-party approver 107, the funds can then be transferred back to the payor's account. In some arrangements, the financial institution 104 may remind the third-party approver 107 to decide on a payment being held off through multiple channels, such as phone call, voice message, text message, email, etc. on a daily basis, a weekly basis, and so on.

If the rules engine 115 determines, at process 308, that the payment request is approved upon receiving the approval from the payor 106 or the third-party approver 107, the payment processing circuit 116 of the pull payment server 114 can fulfill the payment request at process 310. In particular, the payment processing circuit 116 may initiate an authorization of the requested amount on the payor's account associated with the payor's transaction code. In some arrangements, the authorization includes an amount of service fee for utilizing the pull payment services provided by the financial institution 104. The payment processing circuit 116 determines the issuer of the payor's account associated with the transaction code and requests a transfer of funds from the issuer through the payment network 109. As discussed above, the financial institution 104 and the issuer of the payor's account can be member banks of the payment network 109 and follow established protocols for transferring funds using the payment network 109. Thus, the financial institution 104 is capable of requesting funds directly from the issuer of the payor's account and providing payment authorization, clearing, and settlement services. If the transaction is declined or determined to be incomplete by the issuer, the payment processing circuit 116 may notify the payor 106 and payee 108 of the failure and abort the transaction. In some arrangements where multiple account are associated with the payor's transaction code, the payment processing circuit 116 may try other accounts following the hierarchy of priorities.

If the authorization is received from the issuer, the payment processing circuit 116 may initiate funds transfer from the payor's account to the payee's account. In particular, the payment processing circuit 116 can pull funds directly from the issuer of the payor's account and push the funds into the payee's account associated with the payee's transaction code through the payment network 109. The issuer of the payee's account can also be a member bank of the payment network 109 and follow established protocols for transferring funds using the payment network 109. Thus, the financial institution 104 is capable of pushing funds directly to the issuer of the payee's account and providing payment authorization, clearing, and settlement services. Due to the ability of the financial institution 104 to directly pull funds from the payor's account and push funds into the payee's account, the payor 106 and the payee 108 are not limited to using an account that is tied to the provider of the pull payment services. After the funds have been deposited into the payee's account, the financial institution 104 may notify the payor 106 and the payee 108 of the completion of transaction through multiple channels, such as phone call, voice message, text message, email, etc. For example, the pull payment server 114 can send the notification to the pull payment clients 126 and 136 on the user devices 120 and 130 associated with the payor 106 and the payee 108.

In some arrangements where the payment has been held off, the payment processing circuit 116 may pull funds from the payor's account and deposit the funds in the holding account upon receiving the “Hold off” option selected by the payor 106 or the third-party approver 107. If the “Approve” option is eventually selected by the payor 106 or the third-party approver 107, the payment processing circuit 116 can push the funds into the payee's account. In some arrangements, when the funds are transferred from the payor's account to the holding account, the financial institution 104 can notify the payor 106 and the payee 108 of the hold-off status through multiple channels, such as phone call, voice message, text message, email, etc. In further arrangements, when the funds are transferred from the holding account to the payee's account, the financial institution can send another message notifying the payor 106 and the payee 108 of the completion of the transaction through multiple channels. For example, the pull payment server 114 can send the notification(s) to the pull payment clients 126 and 136 on the user devices 120 and 130 associated with the payor 106 and the payee 108.

Technically, the systems, methods and apparatuses described herein may transform operation of a user device, such as a smartphone, to selectively utilize one or more network interfaces (e.g., infrared, NFC, Bluetooth, etc.) to establish a secure or relatively secure communication channel. Further, the user device may now serve as a repository or storage site for personal information of the user. In another arrangement, the personal information may be stored in the cloud. In either arrangement, the user may appreciate the flexibility provided by the systems herein to retain their personal and confidential information relatively securely.

The embodiments described herein have been described with reference to drawings. The drawings illustrate certain details of specific embodiments that implement the systems, methods and programs described herein. However, describing the embodiments with drawings should not be construed as imposing on the disclosure any limitations that may be present in the drawings.

It should be understood that no claim element herein is to be construed under the provisions of 35 U.S.C. § 112(f), unless the element is expressly recited using the phrase “means for.”

As used herein, the term “circuit” may include hardware structured to execute the functions described herein. In some embodiments, each respective “circuit” may include machine-readable media for configuring the hardware to execute the functions described herein. The circuit may be embodied as one or more circuitry components including, but not limited to, processing circuitry, network interfaces, peripheral devices, input devices, output devices, sensors, etc. In some embodiments, a circuit may take the form of one or more analog circuits, electronic circuits (e.g., integrated circuits (IC), discrete circuits, system on a chip (SOCs) circuits, etc.), telecommunication circuits, hybrid circuits, and any other type of “circuit.” In this regard, the “circuit” may include any type of component for accomplishing or facilitating achievement of the operations described herein. For example, a circuit as described herein may include one or more transistors, logic gates (e.g., NAND, AND, NOR, OR, XOR, NOT, XNOR, etc.), resistors, multiplexers, registers, capacitors, inductors, diodes, wiring, and so on).

The “circuit” may also include one or more dedicated processors communicatively coupled to one or more dedicated memory or memory devices. In this regard, the one or more dedicated processors may execute instructions stored in the dedicated memory or may execute instructions otherwise accessible to the one or more dedicated processors. In some embodiments, the one or more dedicated processors may be embodied in various ways. The one or more dedicated processors may be constructed in a manner sufficient to perform at least the operations described herein. In some embodiments, the one or more dedicated processors may be shared by multiple circuits (e.g., circuit A and circuit B may comprise or otherwise share the same processor which, in some example embodiments, may execute instructions stored, or otherwise accessed, via different areas of memory). Alternatively or additionally, the one or more dedicated processors may be structured to perform or otherwise execute certain operations independent of one or more co-processors. In other example embodiments, two or more processors may be coupled via a bus to enable independent, parallel, pipelined, or multi-threaded instruction execution. Each processor may be implemented as one or more general-purpose processors, application specific integrated circuits (ASICs), field programmable gate arrays (FPGAs), digital signal processors (DSPs), or other suitable electronic data processing components structured to execute instructions provided by memory. The one or more dedicated processors may take the form of a single core processor, multi-core processor (e.g., a dual core processor, triple core processor, quad core processor, etc.), microprocessor, etc.

Any foregoing references to currency or funds are intended to include fiat currencies, non-fiat currencies (e.g., precious metals), and math-based currencies (often referred to as cryptocurrencies). Examples of math-based currencies include Bitcoin, Litecoin, Dogecoin, and the like.

It should be noted that although the diagrams herein may show a specific order and composition of method steps, it is understood that the order of these steps may differ from what is depicted. For example, two or more steps may be performed concurrently or with partial concurrence. Also, some method steps that are performed as discrete steps may be combined, steps being performed as a combined step may be separated into discrete steps, the sequence of certain processes may be reversed or otherwise varied, and the nature or number of discrete processes may be altered or varied. The order or sequence of any element or apparatus may be varied or substituted according to alternative embodiments. Accordingly, all such modifications are intended to be included within the scope of the present disclosure as defined in the appended claims.

The foregoing description of embodiments has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure to the precise form disclosed, and modifications and variations are possible in light of the above teachings or may be acquired from this disclosure. The embodiments were chosen and described in order to explain the principals of the disclosure and its practical application to enable one skilled in the art to utilize the various embodiments and with various modifications as are suited to the particular use contemplated. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the embodiments without departing from the scope of the present disclosure as expressed in the appended claims. 

What is claimed:
 1. A method comprising: generating, by a computing system, a transaction code associated with a payee; receiving, by the computing system and from a user device associated with a payor, the transaction code associated with the payee and a transaction code associated with the payor, the transaction codes exchanged during a contact or a near-contact event; establishing, by the computing system, a payment relationship between the payee and the payor responsive to receiving the transaction codes from the user device associated with the payor; receiving, by the computing system, a payment request; determining, by the computing system, that the received transaction codes contained in the payment request match the transaction codes of the payee and the payor stored by the computing system; and processing, by the computing system, the received payment request.
 2. The method of claim 1, wherein the contact or the near-contact event is a near field communication (NFC).
 3. The method of claim 1, wherein the transaction code of the payee and the transaction code of the payor are tokenized.
 4. The method of claim 1, further comprising: registering, by the computing system, the payee for a pull payment service; and registering, by the computing system, the payor for the pull payment service.
 5. The method of claim 1, further comprising establishing rules governing the payment relationship between the payee and the payor.
 6. The method of claim 5, further comprising: determining, by the computing system, whether the payment request conforms to the established rules governing the payment relationship; declining, by the computing system, the payment request in response to determining that the payment request does not conform to the established rules; and fulfilling, by the computing system, the payment request in response to determining that the payment request conforms to the established rules.
 7. The method of claim 6, wherein the established rules define at least one of an amount, a limit, a time, a date, or a frequency of a payment between the payor and the payee.
 8. The method of claim 6, wherein the established rules define a requirement of an approval from the payor or a third party before making a payment.
 9. The method of claim 8, further comprising: determining, by the computing system, that the payment request is delayed by the payor or the third party; transferring, by the computing system, funds from an account associated with the payor to a holding account at the computing system; transferring, by the computing system, the funds from the holding account to an account associated with the payee upon receiving an approval by the payor or the third party; and transferring, by the computing system, the funds back from the holding account to the account associated with the payor upon receiving a declination by the payor or the third party.
 10. A computing system comprising: at least one processing circuit comprising at least one processor coupled to at least one memory device, the at least one processing circuit structured to: generate a transaction code associated with a payee; receive, from a user device associated with a payor, the transaction code associated with the payee and a transaction code associated with the payor, the transaction codes exchanged during a contact or a near-contact event; establish a payment relationship between the payee and the payor responsive to receiving the transaction codes from the user device associated with the payor; receive a payment request; determine that the received transaction codes contained in the payment request match the transaction codes of the payee and the payor stored by the computing system; and process the received payment request.
 11. The computing system of claim 10, wherein the contact or the near-contact event is a near field communication (NFC).
 12. The computing system of claim 11, wherein the at least one processing circuit is further structured to establish rules governing a relationship between the payee and the payor.
 13. The computing system of claim 12, wherein the established rules define a requirement of an approval from the payor or a third party before making a payment.
 14. The computing system of claim 13, wherein the at least one processing circuit is further structured to: determine that the payment request is delayed by the payor or the third party; transfer funds from an account associated with the payor to a holding account at the computing system; transfer the funds from the holding account to an account associated with the payee upon receiving an approval by the payor or the third party; and transfer the funds back from the holding account to the account associated with the payor upon receiving a declination by the payor or the third party.
 15. A non-transitory computer-readable media having computer-executable instructions embodied therein that, when executed by one or more processors of a computing system, cause the one or more processors to perform operations, the operations comprising: generating, by the computing system, a transaction code associated with a payee; receiving, by the computing system and from a user device associated with a payor, the transaction code associated with the payee and a transaction code associated with the payor, the transaction codes exchanged during a contact or a near-contact event; establishing, by the computing system, a payment relationship between the payee and the payor responsive to receiving the transaction codes from the user device associated with the payor; receiving, by the computing system, a payment request; determining, by the computing system, that the received transaction codes contained in the payment request match the transaction codes of the payee and the payor stored by the computing system; and processing, by the computing system, the received payment request.
 16. The non-transitory computer-readable media of claim 15, wherein the contact or the near-contact event is a near field communication (NFC).
 17. The non-transitory computer-readable media of claim 15, wherein the transaction code of the payee and the transaction code of the payor are tokenized.
 18. The non-transitory computer-readable media of claim 15, wherein the operations further comprise establishing rules governing a relationship between the payee and the payor.
 19. The non-transitory computer-readable media of claim 18, wherein the established rules define at least one of an amount, a limit, a time, a date, or a frequency of a payment between the payor and the payee.
 20. The non-transitory computer-readable media of claim 18, wherein established rules define a requirement of an approval from the payor or a third party before making a payment. 